DE4440708C1 - Then muffle - Google Patents

Abstract

The invention concerns the structural design of a Danner muffle for producing glass tubing from a continuous strand. The object is to adapt the Danner muffle to the size of the Danner pipe such that it can be structurally modified. The Danner muffle comprises a steel support structure with a plurality of steel carrier modules and a self-supporting framework of refractory carrier modules. The Danner muffle further comprises a plurality of heating modules, disposed about the Danner pipe, and a frit opening which can be closed. All the modules are interchangeable and disposed such that they can be adjusted relative to one another.

Description

The invention relates to the structural design of a Danner muffle used for the production of glass tube and glass rod filen is applicable, in lightweight and modular construction.

As is known, the manufacture of glass tubes and Glass rods on the running strand by deduction from a so-called called whistle, e.g. B. a Danner pipe.

Glass tube and glass rod profiles of the highest geometric Quality is only due to a targeted thermal influence solution of the glass that runs onto the Danner pipe up to Pipe or rod formation area, the so-called onion area to manufacture. Since also, as is known, by the rotational movement and the inclination of the Danner pipe that on this winding glass in its layer thickness is steadily equalized to the top of the Danner pipe, the quality of this layer thickness is significantly different from that Depending on the environment of the Danner pipe.

It is necessary and economically justifiable to have one Many different tube and rod dimensions without plant engineering conversions on a Danner pipe to ferti gen. This is known to be achieved in that the Targeted temperature curve of the glass on the Danner pipe is influenced over their length.

Interfering external influences, such as B. larger different Air movements around the Danner pipe significantly affect Lich the quality of the drawn glass profile.

An enclosure of the entire Danner pipe area, so called muffle, is already from the patents DRP 384 796, US-PS 12 18 598, GB-PS 110 642 and GB-PS 111 521 known.

These enclosures are divided into several heating zones that Heat is supplied either indirectly via heating chambers fossil fuels or directly via heating elements at elek heating.  

The disadvantages of fossil heating are the massi ve, complex and energetically unfavorable structure of the muffle, the delayed indirect thermal influence on the glass on the Danner pipe and an exclusively stationary loading driving location of the enclosure. The direct electric heater tongue is much cheaper in terms of energy, impaired but if one or more heaters fail, this is necessary Liche temperature profile, so that time and material consuming Repairs are necessary.

Furthermore, it is essential for many operations that Enclosure in the operating state either with or without To put the Danner pipe in another position, preferably se during tempering processes, feeder head repairs or the It is cheap to remove defective glass.

DE-AS 10 84 455 is a device for pulling described by tubes, rods or the like made of glass, in which a muffle with the pipe axially rotatable in it is pivoted together and consists of a two-part composite steel jacket with an inner lining consists of ceramic material. The heating takes place over Burner.

Because the muffle is designed as a relatively compact component is their unfavorable structure very time, energy and material-intensive for retrofitting, temperature regulation or repairs. The exact adherence to a certain heating profile with individual temperature zones for different ne pipe areas are not possible due to gas heating.

A two-part outlet nozzle (one nozzle is on the feeder, one second nozzle attached to the muffle), which is unheated, leads to a non-continuous emergence of the glass the Danner pipe, e.g. B. with glass level fluctuations in the Melting tub or temperature fluctuations in the feeder.

According to the invention, the task is a Danner muffle constructively so that their maximum local ver  changeability is given, its structure through modified and interchangeable modules according to the size of the Danner pipe is variable, the heating parts during the Ferti process are interchangeable and draining the glaze This is possible with the enclosure closed on all sides.

According to the invention the object is achieved in that the Then the muffle consists of a load-bearing steel frame, which slidable with all parts of the system leads, in turn a self-supporting framework made of fire has carrier modules in which two-dimensionally more re heating modules are arranged around the Danner pipe and that un a lockable frit below the Danner pipe tip opening is arranged.

The steel frame, consisting of a steel plate with corre sponding appropriate steel profiles as a connection to the movable one The lower part takes the steel support modules for the refractory upgrade. The steel support modules are loose in receptacles used in the base plate and are in their position on the construction adapted.

Both the side and the top steel support modules have the same profile type, preferably they are limited steel support modules as angle profiles and the middle ones Steel support modules designed as U-profiles. The rear and front end of the muffle form on the base plate fastened steel sheets. A sliding door system on the back tere steel sheet, which has an opening for the Danner pipes shaft, allows a good, insulating seal of the Interior to the Danner pipe machine. The front steel Due to the process, sheet metal has a much larger gap tion with a multiple subdivision according to the invention and in its position changeable locking system that the Ausspa depending on the training of the onion.

The entire steel frame with a muffle is in one the transfer carriage which can be moved in the direction of the strand withdrawal  placed so that when the Danner pipe is in the center Interior of the Dannermuffel any contact point of the Glass strand on the Danner pipe is adjustable.

The inner lining of the muffle is covered by an all supporting framework made of refractory material According to the refractory framework made of refractory support modules built and accommodates the heating modules. In the win kelprofile or U-profiles of the steel support modules are the ent speaking refractory modules so that they were exactly are fixable. The upper refractory supports are located here bulge on the side refractory support modules and are by a tensioning and fastening device between Lichen and upper steel support modules held.

Between the refractory support modules are according to the inven the equally sized vertical and vertical heating modules clamped horizontally and placed loosely to enclose with the interior of the muffle completely. All heating mo outside are also good against excessive heat losses isolated.

According to the invention, a heating module contains two separate radiators per, preferably designed as heating wires, which in Flow and withdrawal direction of the glass side by side are arranged. The electrical circuit of the individual Heizmo dule per heating circuit is designed so that the radiator connected in series in the same position for each heating module and the two radiators connected in series each heating module are connected in parallel as a partial heating circuit. This switching of the heating modules allows continued operation each heating circuit, even if a part connected in series heating circuit fails.

A Danny muffle consists of at least three, but at most five heating circuits, the rear heating circuit due to the Pouring glass onto the Danner pipe and the front heating circuit because of the frit opening below the Danner pipe tip each have one horizontal heating module less. The between the rear overrun and front extraction heating circuit  the heating circuits have an even spread over the circumference Danner pipe distributed heating modules. The middle heating circuits have circumferentially arranged heating modules, the ones below a cover on the base plate have. For a targeted thermal influence The glass on the Danner pipe is a clear separation of the individual heating circuits necessary. This is due to the arrangement of all heating modules between the refractory support modules according to the invention achieved in recessed niches, so that an overlapping thermal influence on the glass ver is avoided.

Furthermore, it is advantageous that preferably in size ren Danner pipe diameters the distance between Danner whistle and all heating modules must be approximately the same size. According to the invention, this is achieved in that the muffler the incline can be changed and thus the respective can be adjusted to incline the Danner pipe. Thereby it is guaranteed that the Danner pipe over its length is always arranged centrally in the interior of the muffle. As is known, the frit is a major disturbance variable opening below the Danner pipe tip. In constant This opening is the glass tube or rod formation process completely closed according to the invention by two sliders sen. In case of line break or Danner pipe rinsing or otherwise malfunctions, these valves are automatically pneumatic or to open or close electrically.

The advantage of the then muffle according to the invention is their overall structure, preferably in their modular structure. By replaceable heating modules during the drawing operation plant availability is significantly increased. By the Use of heating modules with vacuum-formed fiberboard a simple and lightweight construction is achieved.

Another advantage of the then muffle invention stands in that they are in the position of the inclination of the Danner  whistle can be adjusted.

The arrangement of the heating modules between refractory support modules takes place in recessed niches so that their mutual thermal influence is avoided.

To achieve the corresponding uniform heat level and to avoid disturbances in the interior of the Dannermuf The frit opening is fel by two automatically operated Slider completely closed in the constant drawing process.

The then muffle according to the invention is based on an off management example are explained in more detail.

The figures show:

Fig. 1 is a sectional plan view of Dannermuffel,

Fig. 2, the Dannermuffelanordnung to the feeder head in top view,

Fig. 3 is a sectional side view of the slider and with frit opening Fritterohr,

Fig. 4 shows the structure of the refractory carrier modules in a side section,

Fig. 5 shows the arrangement of the radiators on a heating module,

Fig. 6 shows the electrical circuit of the heating modules.

Fig. 1 shows the section of a then muffle in plan view. The Danner pipe 1 is attached to the Dannerpfeifenwel le 2 and arranged completely in the center of the Dannermuffle. In the base plate 3 , the steel support modules 4 are loosely attached to the receptacle on both sides. These steel support modules 4 hold the refractory support modules 5 in place. The heating modules 6 with additional insulation 18 are inserted between the refractory support modules 5 and locked in place with the steel support modules 4 by simple clamping brackets. A frit opening 7 for draining the glass is arranged under the tip of the Danner pipe 1 . The rear end of the muffle is formed by a sliding gate system 8 that is variable in height and lateral position. The heating modules 6 are arranged in niches between the refractory support modules 4 .

The position variability of the Dannermuffle is shown in FIG. 2. The working position 10 of the muffle is shown under the feeder head 9 . The muffle can then be brought into the repair or tempering position 11 by moving it on a rail system. The Dannerpfeifenma machine 12 is also arranged on the same rail system.

Fig. 3 shows the fryer 13 under the tip of the Dan nerpfeife 1st In the tube or rod drawing operation, the frit tube 13 is completely closed by two slides 14 , when the glass is let down, the two slides 14 are opened , as shown.

The structure of the refractory support modules 5 is shown in FIG. 4. Two side refractory support modules 15 of the same shape and size accommodate an upper refractory support module 16 . The Feu erfestträgermodule 15/16 are laterally and above embedded in the steel support modules 4 , which in turn are stuck in the base plate 3 and attached.

The arrangement of the radiators 17 on a heating module 6 is shown in FIG. 5. For each heating module 6 , two multi-leg radiators 17 are arranged symmetrically on the heating module 6 .

Fig. 6 shows the electrical circuit of three Heizmo modules 6th These three heating modules 6 are evenly arranged the Dan nerpfeife 1 and form a heating circuit. The arranged on the same scope of the Danner whistle 1 three radiators by 17 of three heating modules 6 are connected in series and connected in parallel with the other three radiators 17 also connected in series.

Reference list

1 whistle
2 Danner pipe shaft
3 base plate
4 steel support modules
5 refractory support modules
6 heating modules
7 frit opening
8 sliding gate system
9 feeder head
10 Working position of the muffle
11 Repair position for the muffle
12 Danner pipe machine
13 deep fryer
14 sliders
15 side refractory support modules
16 upper refractory support modules
17 radiators
18 Additional insulation

Claims (6)

1. Then muffle for the production of glass tube or glass rod profiles, consisting of a steel frame, an insulating liner and a heater, characterized in that

• - That its load-bearing steel frame made up of several steel support modules ( 4 ) with a self-supporting frame made up of exchangeable refractory support modules ( 5 ) and is adjustable overall,
• - That it is adjustable in angle to match the inclination of the Danner pipe ( 1 ),
• - That over the length and scope of the Danner whistle ( 1 ) several heating modules ( 6 ) with radiators ( 17 ) are arranged and
• - That below the tip of the Danner pipe ( 1 ) a closable frit opening ( 7 ) is attached.

2. Then muffle according to claim 1, characterized in that the steel support modules ( 4 ) are interchangeable as a lateral and upper limit and are adjustable to each other. 3. Then muffle according to claim 1, characterized in that the electrical heating modules ( 6 ) between the fire fixed support modules ( 5 ) and are exchangeable during the drawing process. 4. then muffle according to claim 3, characterized in that each heating module ( 6 ) consists of two multi-leg, next to each other arranged radiators ( 17 ) and the heating body ( 17 ) of each heating module ( 6 ) in the same position with each other as a partial heating circuit connected in series are and the series connections of the heating modules ( 6 ) are connected as a heating circuit parallel. 5. then muffle according to claim 3 and 4, characterized in that the heating modules ( 6 ) consist of insulating vacuum-formed fiber mats with applied radiators ( 17 ). 6. Then muffle according to claim 1, characterized in that the frit opening ( 7 ) below the tip of the Danner pipe ( 1 ) by slide ( 14 ) electrically, pneumatically or mechanically during the drawing process can be closed and automatically opened in the event of strand breakage or faults.